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Nanoscale probing of electron-regulated structural transitions in silk proteins by near-field IR imaging and nano-spectroscopy
- Qin, Nan;
- Zhang, Shaoqing;
- Jiang, Jianjuan;
- Corder, Stephanie Gilbert;
- Qian, Zhigang;
- Zhou, Zhitao;
- Lee, Woonsoo;
- Liu, Keyin;
- Wang, Xiaohan;
- Li, Xinxin;
- Shi, Zhifeng;
- Mao, Ying;
- Bechtel, Hans A;
- Martin, Michael C;
- Xia, Xiaoxia;
- Marelli, Benedetto;
- Kaplan, David L;
- Omenetto, Fiorenzo G;
- Liu, Mengkun;
- Tao, Tiger H
- et al.
Published Web Location
https://doi.org/10.1038/ncomms13079Abstract
Silk protein fibres produced by silkworms and spiders are renowned for their unparalleled mechanical strength and extensibility arising from their high-β-sheet crystal contents as natural materials. Investigation of β-sheet-oriented conformational transitions in silk proteins at the nanoscale remains a challenge using conventional imaging techniques given their limitations in chemical sensitivity or limited spatial resolution. Here, we report on electron-regulated nanoscale polymorphic transitions in silk proteins revealed by near-field infrared imaging and nano-spectroscopy at resolutions approaching the molecular level. The ability to locally probe nanoscale protein structural transitions combined with nanometre-precision electron-beam lithography offers us the capability to finely control the structure of silk proteins in two and three dimensions. Our work paves the way for unlocking essential nanoscopic protein structures and critical conditions for electron-induced conformational transitions, offering new rules to design protein-based nanoarchitectures.
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